BURSTING水库自净加速器（平台）

产品介绍：

BURSTING水库自净加速器（平台）是一类通过物理、生物、生态协同作用，快速打破水体分层停滞、提升溶解氧、激活微生物与生态链，从而大幅加速水库自然净化能力的集成设备。

在线咨询 139-1702-9796

PRODUCTS CENTER 产品中心

热门产品 — HOT PRODUCT—

便携式浮萍打捞机（清漂）

太阳能保洁船

OBAO-frog树叶打捞机

热门资讯 — HOT NEWS —

联系我们 — CONTACT US —

139-1702-9796

obao@obao.com.cn

BURSTING水库自净加速器（平台）

Reservoir Self-Purification Accelerator

“水库自净加速器”是指改善水库中容易停滞的水流，并人为增加自然净化能力的技术和方法。主要目标包括：溶解氧（DO）增加、沉积物抑制和藻类防治。
The "Reservoir Self-Purification Accelerator" refers to technologies and methods for improving stagnant water flow in reservoirs and artificially enhancing their natural purification capacity. Its main objectives are as follows: increasing dissolved oxygen (DO) content, inhibiting sediment release, and algae prevention and control.

BURSTING水库自净加速器（平台）通过三大机制突破传统水体自净的技术瓶颈
The BURSTING Reservoir Self-Purification Accelerator (Platform) breaks through the technical bottlenecks of traditional water body self-purification through three major mechanisms.

①水体循环与复氧：强制上下对流，打破热分层，将表层富氧水送至底层，提升全库溶解氧（DO），抑制底泥磷、铁、锰释放。通过曝气、填料、生物膜，大幅增加好氧 / 兼氧 / 厌氧微生物数量与活性，快速降解 COD、氨氮、总氮。

① Water Circulation and Reoxygenation: Forced vertical convection breaks thermal stratification, delivering oxygen-rich surface water to the bottom layer, increasing dissolved oxygen (DO) levels throughout the reservoir, and inhibiting the release of phosphorus, iron, and manganese from sediment. Through aeration, packing media, and biofilms, the quantity and activity of aerobic, facultative, and anaerobic microorganisms are significantly enhanced, enabling rapid degradation of COD, ammonia nitrogen, and total nitrogen.

BURSTING

②微生物强化：通过精准投加缓释型硅肥营养盐的定量补给，优势种转为硅藻小球藻等有益藻，蓝藻藻华风险显著降低。另外微扰动底泥，导致表层的硅酸浓度上升。四月是硅藻高峰期，硅藻在水中吸收磷（P），并将其固定在细胞中，此时水中磷浓度降低。硅藻在春季“先吃磷”，以硅藻为食的浮游动物（如水蚤等）会繁殖，景观六月水温上升是藻类季节，藻类的初期生长被大幅抑制。
② Microbial Enhancement: Through precise dosing and quantitative supplementation of slow-release silicon-based fertilizer nutrients, the dominant species shift to beneficial algae such as diatoms and Chlorella, significantly reducing the risk of cyanobacterial blooms. Additionally, mild sediment disturbance increases silicic acid concentration in the surface water. April marks the peak period for diatoms, which absorb phosphorus (P) from the water and immobilize it within their cells, thereby reducing phosphorus concentration in the water column. Diatoms "consume phosphorus first" in spring, promoting the reproduction of zooplankton that feed on diatoms (e.g., Daphnia). As water temperature rises in June, the initial growth of algae is substantially inhibited during the algal growing season.

水库自净加速器

③生态链构建：水下栖息地构建，形成 “填料吸收+微生物分解+物理截留”的协同净化体系。基于水下栖息地，在水中放置多孔物质，作为物理“碟形”，高效捕获污染物，优化了水库的自净作用。填充物表面形成的生物膜（生物膜）充当“生物反应器”，分解有机物。表面形成的生物膜（生物膜）充当“生物反应器”，分解有机物。更是支持高阶生态系统的基地，是甲壳类（如水蚤等）、鱼类、虾类的栖息地。栖息地中生长的有益藻类（硅藻和小藻）被带入食物链，最终以“鱼”的形式（通过捕捞去除养分）的形式被排除在系统外，完成了一个可持续的循环。
③ Ecosystem Chain Construction: Construction of underwater habitats to form a synergistic purification system of "filler adsorption + microbial decomposition + physical interception". Based on the underwater habitats, porous materials are placed in the water as physical "traps" to efficiently capture pollutants and optimize the reservoir’s self-purification function. Biofilms formed on the surfaces of the fillers act as "bioreactors" to decompose organic matter. Furthermore, these habitats serve as a foundation for supporting advanced ecosystems, providing shelter for crustaceans (e.g., Daphnia), fish, and shrimp. Beneficial algae (diatoms and Chlorella) grown in the habitats enter the food chain and are ultimately removed from the system in the form of "fish" (nutrient removal via fishing), completing a sustainable cycle.

水库自净加速器

水下栖息地还是高阶生态系统的重要支撑基地，为甲壳类（如水蚤等）、鱼类、虾类等水生生物提供了适宜的栖息环境，助力实现“以渔净水”的目标。栖息地中生长的有益藻类（如硅藻、小球藻等）会进入食物链，通过水生生物的摄食与生长，间接转移水中的氮磷营养物，最终以鱼类的形式，通过捕捞作业将水体中的养分带离系统，从而完成一个可持续的生态循环。

Underwater habitats also serve as crucial supporting bases for high-level ecosystems, providing suitable living environments for aquatic organisms such as crustaceans (e.g., water fleas), fish and shrimp, and helping to achieve the goal of water purification through fisheries.
Beneficial algae (e.g., diatoms, Chlorella) growing in these habitats enter the food chain. Through the ingestion and growth of aquatic organisms, nitrogen and phosphorus nutrients in the water are indirectly transferred. Ultimately, these nutrients are removed from the water system via fishing operations in the form of fish, thus completing a sustainable ecological cycle.

上海欧保环境科技公司从2005年开始涉足水库的水生态修复，在国内有过30多个水库修复的工程经验，加速水库的自净化能力是经济有效方式。
Shanghai Oubao Environmental Technology Co., Ltd. has been engaged in reservoir aquatic ecological restoration since 2005, accumulating engineering experience in over 30 reservoir restoration projects across China. Accelerating the self-purification capacity of reservoirs is proven to be an economically efficient approach.

VARIOUS WATER ENVIRONMENT TREATMENT SCHEMES水环境治理方案案例

河道治理 | 农村污水治理 | 水环境治理

黑臭河道景观湖水源地氧化塘人工湖

上海松江九亭入河污排口治理-欧保环境入河排污口是污染物进入河道的最后关口。排污口有的很隐蔽，晴天不易发，河道治理的现场踏勘很重要。

上海松江九亭入河污排口治理-欧保环境

水库水华的蓝藻治理应用（一）采用太阳能控藻机对重庆某水库水华控进行治理，一个月时间达到蓝藻治理的目的，第二年进本没有出现蓝藻。

水库水华的蓝藻治理应用（一）

波兰客商考察欧保公司人工浮岛意向代理欧洲三国市场波兰客商考察欧保公司人工浮岛，对公司生产的7人工浮岛，探讨低温情况下的结构改造意见，并意向代理欧洲三国市场。欧保公司2002年开始从事人工浮岛（后期升级为浮动湿地）研发生产的企业之一，2003年第一批浮岛在北京河道治理中得到应用。

波兰客商考察欧保公司人工浮岛意向代理欧洲三国市场

南京市溧水区农村污水处理改造近几年农村污水处理力度很大，但是出现的较高比例的闲置和不达标问题。欧保微生态单元治理法，结合地形地貌及农污的特征进行了很多项目改造，取得很好的水质和景观效果。微生态单元治理法将污水进行阶梯式流程化处理，分高浓度、低浓度、尾端提标三段法处理。能搞耐受水量冲击，污水浓度波动，同时实现节能与资源化利用的目的。

南京市溧水区农村污水处理改造